Camera having film winding and shutter setting mechanism



July 11, 1950 l. w. DOYLE ETAL 2,514,991

cmm HAVING FILM WINDING mm SHUTTER SETTING MECHANISM Filed Oct. 22, 1945 7 Sheets-Sheet 1 INVENTORS fry/179 W D BY Carl L Johnson 7 ATTORN Y5 July 11, 1950 l. w. DOYLE ETAL 2,514,991

CAMERA HAVING FILNLWINDING AND SHUTTER SETTING MECHANISM Filed Oct. 22, 1945 "r Sheets-Sheet 2 INVENTORS /rv/'r7g W Day/e q & 7 BY Carl MJO/msOn {W ATTORN Y5 W. DOYLE ETAL CAMERA HAVING FILM WINDING AND SHUTTER SETTING MECHANISM July 11, 1950 7 Sheets-Sheet 5 Filed 001;. 22, 1945 INVENTORS /rv/r79' W Day/e BY Car/ 14 Johnson flZML M ATTORN S July 11, 1950 1. w. DOYLE ETAL 2,514,991

CAMERA HAVING FILM WINDING AND SHUTTER SETTING MECHANISM '7 Sheets-Sheet 4 Filed Oct. 22, 1945 INVENTORS lrvmg [44 Day/s BY Car/ l/ 0r'7nson W @154 ATTORN y 1, 1950 x. w DOYLE ETAL 2,5143% CAMERA HAVING FILM WINDING AND SHUTTER SETTING MECHANISM Filed Oct. 22, 1945 '7 Sheets-Sheet 5 //2 INVENTORS /06 1 5a m/m w Day/e BY Car/ V. ohnson gum M W ATTORNEYS July 11, 1950 v 1. w. DOYLE ETAL 2,514,991

CAMERA HAVING FILM WINDING AND SHUTTER SETTING MECHANISM Filed Oct. 22, 1945 7 Sheets-Sheet 6 x I INVENTORS Irv/r79 W Doyle BY Carl l/. Johnson 42M, awn fwd ATTORNE July 11, 1950 1. w. DOYLE EI'AL 2,514,991

CAMERA HAVING FILM WINDING AND SHUTTER SETTING MECHANISM 7 Sheets-Sheet 7 Filed Oct. 22, 1945 mull MW Patented July 11, 195@ UNITED STATES PATENT OFFiCE CAMERA HAVING FILM WINDING AND SHUTTER SETTING MECHANISM Application October 22, 1945, Serial No. 623,620

4 Claims.

This invention relates to a camera, and more particularly to a camera which may be operated by hand or by a motor.

It is an object of this invention to provide a camera for exposing strip film which may be manually operated with great rapidity. Another ob ject is to provide a camera which may be electrisally operated in a position remote from the operator. Another object is to provide a camera of the above nature which is relatively light, but extremely rugged and well able to withstand cnditions of extended, rigorous use. Another object is to provide a camera of the above nature adaptable for aerial reconnaissance work at low altitude and high speed, as well as for operation at high altitude and relatively slower air speeds. Another object is to provide a camera of the above nature which may readily be adapted for manual or electrical operation. Other objects will be in part apparent, and in part pointed out hereinafter.

In the drawing,

Figure 1 is a perspective View of the camera in condition for manual operation;

Figure 2 is an enlarged elevation taken substantiall along the line 22 of Figure 1;

Figure 3 is an enlarged elevation taken substantially along the line .l3 of Figure 1;

Figure 4 is an enlarged view of a portion of the operating mechanism shown in the lower lefthand portion of Figure 2, certain parts being shown in section and others broken away;

Figure 5 shows portions of the nechanism of Figure i in difierent operative positions;

Figure 6 is a fragmentary side view of the structure shown in Figure 3, as viewed along the line li-li;

Figure 7 is a substantially enlarged view partially in section of a mutilated gear forming part of the shutter operating mechanism;

Figure 8 is a fragmentary top plan View of a portion of the mechanism shown at the left-hand side of Figure 2;

Figure 9 is a side view of the focal plane shutter of the camera illustrating its relationship to the mutilated gear shown in Figure '7 Figure 10 is an elevation of a cover plate which replaces the operating handle when the camera is electrically operated;

Figure 11 is a fragmentary section taken along the line ill-ill of Figure 10; and,

Figure 12 is a fragmentary elevation showing the connection on the trigger for the tripping mechanism.

Similar reference characters refer to similar parts throughout the various views of the drawing.

As shown in Figure 1, the camera comprises a cone 2%, a focal plane shutter 2i and a magazine 22 over which a detachable cover 23 is fitted. On one side of magazine 22 is a plate 24 which, as is shown in Figure 2, supports a portion of the operating mechanism in the camera, which will 2 be described in detail hereinafter. The camera may be operated electrically or manually, the electrical operation being accomplished in the manner now to be described.

Fivotally mounted on plate is a handle, generally indicated at carrying a trigger it pivoted on a pin 2?. Manual operation of the camera is effected by trigger as will be described below. Handle 25 is directly supported by a plate secured to camera plate as by screws 25b, so that when it is desired to operate the camera electrically, screws 25?) may be unloosened to permit removal of handle 25 and plate 25a. Preferably under such circumstances, a cover 2% (Figure 0) is provided for attachment to the camera by screws 2%. This cover carries a plug E i-l having a slot 262 (see Figure 11) formed therein which, when the cover is in place, interengages with a key on pin 2'5 (Figure 12) to hold the pin in tripping position. Under such circumstances, operation of the camera is controlled by any suitably disposed on-off switch in the camera circuit which, when on, causes the camera to operate in run away fashion. Thus it follows that the camera is readily installable remotely from the operator and in a position where space is limited.

Electrical operation of the camera will first be described. As shown in Figure 2, the inner end of pin 2'? has fastened thereto a plate 28 which carries a finger 29, the end of this finger bearing against an upstanding foot to formed on one end of a slide 3i reciprocably mounted on plate 25 by means of a pair of pins 32 extending through slots in the slide. Slide 3! is biased to the left, as viewed in Figure 2, by a spring 3% so as normally to be in the position shown. It may now be seen that when the camera is arranged for electrical operation, i. e. when pin 2i is in tripping position, finger 29 holds slide St to the right to engage a pair of contacts 35 and closing a circuit to the camera motors 37 (Figure 6).

Motors are coupled as at and together drive a pinion (see also Figure 2) which pinion drives a main gear through a reduction train comprising gears ii, 1-2, and a pair of ratchet connected gears, generally indicated at 55, which will be described below. As will hereinafter appear, a complete cycle of operation of the camera occurs during one revolution of gear Fastened to gear ii as shown in Figure 8, is a shutter winding gear lt, both of these gears being mounted on a shaft ll carried by plate 24. Gear is of a mutilated type, and as shown in Figure '7, includes a toothed portion ll? and a smooth portion 59, the last tooth ilfl of the toothed portion being formed at one end of an arm 5| pivotally carried by the body of the gear, and under a countercloclnvise bias by a spring 52. This type of gear is provided to assure an efiective driving connection to the shut er driving in Figure 2, the camera is in condition to be tripped, i. e. the film and shutter have been wound and the pressure plate described hereinafter is in position to hold the film in fixed position in the focal plane. When the trigger is pulled, as heretofore described, and motor contacts 35 and 36 close, main gear 40 rotates clockwise. Carried by this gear are a pair of cams 55 and 5.3 which respectively engage followers 51 and 58 (Figure 3). Follower 51 controls the pressure plate, follower 58 controlling the film winding mechanism. Follower 51 is carried on one end of a lever 59 fastened to a stud shaft 60, to which shaft is also attached an arm 6| carrying at its free end a pin 62. Pin 62 engages a U-shaped bracket 63 which is attached to the pressure plate 64. Also fastened to the pressure plate is a lug 65 to which is secured one end of a spring 66, this spring tending to pull the pressure plate upwardly. This upward bias of the pressure plate is transmitted through arms 6i and 59 to follower 51, the follower accordingly being at all times held against cam 55 (Figure 2). Thus as the cam rotates, follower 5'1 (Figure 3) moves to the outer rim or greater diameter of the cam, arms 59 and 6! accordingly rocking clockwise, as viewed in Figure 3, so as to permit spring 36 to raise pressure plate 34 away from the focal plane to permit movement of the film thereover during the film feeding portion of the cycle.

Pivotally attached to lever 59 is a link 61, the other end of which is in the form of a bell crank 68 (Figure 2) pivoted on a stud 69. The free end 70 of bell crank 68 is engageable with the operating arm H of a counter 12 which is actuated once for each complete operative cycle of the camera, this counter being provided to count the total life cycle of the camera. Bell crank 68 also carries a pawl 13 associated with a ratchet M, which ratchet operates another counter 75 shown in Figure 1. Ratchet 14 (Figure 2) also carries a pin 16 which is so placed in relation to a contact arm Tl that it forces this contact away from another contact 18 to break the motor circuit after a predetermined number of operative cycles, thus to disable the camera when, for example, the film supply is exhausted.

Referring back to Figure 2, it may be seen that main gear 40 meshes with a gear 19 (see also Figure 8) which is fastened to one element 80 of a spring clutch generally indicated at 8|. The other element 32 of this clutch is fastened in any suitable manner to a film spool pivot 83 so that when clutch 3! is engaged, as will be described, pivot 83 is driven by gear 40 by way of gear 19. Gear 19 and clutch element 81] are freely rotatable on spool pivot 83 so that the spool pivot can be rotated only when the clutch is engaged. Clutch 8! includes a wire spring 84 which is associated with both of the clutch elements and which effects a driving connection therebetween when a ratchet 85, carried by clutch element 82 is unrestrained. This ratchet 85 is controlled by a pawl 86 (Figures 2 and 3) which is fastened to and rocked by a shaft 81 (Figure 3). Also attached to shaft 81 is an arm 88 which carries cam follower 58 previously referred to. It may now be seen that as gear 40 (Figure 2) rotates, cam 56 passes under follower 53 (Figure 3) lifting the follower and accordingly rocking arm 83 and pawl 86 counterclockwise, as viewed in Figure 3, and clockwise, as viewed in Figure 2, thus moving the pawl out of engagement with ratchet 85, which causes clutch Bl to engage. With the clutch engaged, spool pivot 83 is driven, as heretofore described, causing film spool 89 to rotate, and

thereby feed a section of unexposed film under the pressure plate which, as described before, is

raised during this portion of the cycle.

To assure the feed of a predetermined length of film for each cycle of operation, a metering roller 90 (Figure 3) is provided (see Figure 6). Referring back to Figure 3, metering roller 90 is mounted on a shaft 9i, which shaft also carries a gear 92 and a cam 93. Gear 92 meshes with a pinion 94 fastened to a shaft 95, which shaft, as shown in Figure 6, carries a pair of pressure rolls 96, which are pulled against metering roller 90 by a spring 97. Thus the film is held firmly against the metering roller, causing the metering roller to rotate as the film is wound on spool (Figure 8) as described above. Rotation of metering roller 93 (Figure 3) causes cam 93 to rotate also. This cam includes a dwell 93a and a stop shoulder 931) which control arm 88 by way of a right angle finger 8811 which rides on cam 93. At the beginning of the cycle, cam stop 93b rests against arm finger 8811, thus holding the cam and accordingly the metering roller against movement. When the camera is tripped and arm 83 is rocked counterclockwise, as viewed in Figure 3, in the manner described above, finger 88a is drawn out of the path of cam stop 93b so that the cam may rotate as the moving film drives metering roller 90. The arm finger may then ride on dwell 93a of the cam, the arm being under a clockwise bias by reason of a spring 98, the cam dwell thus holding pawl 86 out of engagement with ratchet 85 (Figure 2) to maintain clutch 8| in engagement a sufficient length of time to feed the correct amount of unexposed film over the focal plane aperture. When cam finger 83a (Figure 2) drops off cam dwell 93a, pawl 83 reengages ratchet 85 (Figure 2) thus disengaging clutch 8| and stopping the film feed. Thus it follows that metering roller 90 (Figure 2) through its cam 93, accurately meters the correct amount of film for each cycle of operation.

Cam 93 has an additional function. As it rotates, it engages on end 99 of a pivoted lever Hill, the other end HH of which closes a switch [32 which completes the circuit to a signal light (not shown) to indicate to the operator of the camera that film is being fed.

Thus it appears that when trigger 26 (Figure l) is depressed, the operative cycle of the camera is initiated and an exact predetermined amount of film is automatically fed into exposure position.

Trigger controller finger 29 (Fi ure 2) also acts to effect operation of the focal plane shutter 2!, as follows: finger 29, upon counterclockwise movement, as viewed in Figure 2, engages under a pin I03 carried at the end of afinger m4 formed on one arm I05 of a bell crank N16. The other arm 101 of this bell crank has formed on its end a pawl I38 which normally engages a shutter pinion H39. When the bell crank is rocked, however, pawl Hi8 and shutter pinion I09 are disengaged and the focal plane shutter is thereby tripped. Thus during electrical operation of the camera, shutter pinion I09 is always disengaged by pawl I01 so that the shutter is successively set and released synchronously with the feeding of film, as long as the camera circuit remains closed.

As indicated above, the camera may be operated manually by handle 25. Assuming that the camera is in condition for exposure operation, operation of trigger 26 (Figure 2) rocks pin 21 and accordingly finger 29. As noted above, when the finger is rocked, it engages pin I03 to rock arm I05 counterclockwise. This movement of arm I05 sets into operation a number of elements which will now be described. Camera plate 24 (Figure 4) has secured thereto a pin III, which pivotally supports a catch H2 and a locking arm H3. Catch H2 includes a projection I I2a, which carries a pin H4 to which is attached one end of a spring H5. The other end of sprin H5 is fastened to a pin H6 attached to and extending from a catch I I1, forming one end of locking arm H3. When the camera is ready to be tripped, the parts are locked in the position shown in Figure 4, so that the tension of spring H5 exerts a clockwise bias on catch H2. Thus when arm I05 is rocked counterclockwise by tripping of the trigger, its right-hand end clears the end of hook I I2, whereupon the hook engages in a notch I05a in the end of arm I05 to hold both the catch and the arm in tripped position, as shown in dotdash lines in Figure 5. Of course, this counterclockwise movement of arm I05 (Figure 4) causes pawl I08 to release shutter pinion I09 and consequent operation of the focal plane shutter, as hereinbefore described. When it is desired to feed a new length of film into the focal plane and reset the shutter, setting handle 25 is first rocked clockwise, as viewed in Figure 4. Handle 25 is keyed to shaft 41, to which is attached a ratchet gear member generally indicated at HB, having a ratchet I I9 and a gear sector -I 20. Thus it follows that the ratchet and gear sector are rotated when handle 25 is rocked clockwise.

Gear sector I20 meshes with a small pinion |2I which is fastened to a shaft I22 rotatably mounted in camera plate 24. Also secured to shaft I22 is a gear I23 which engages with a gear I24 which, together with a cam I25 to which it is fastened, are freely mounted on shaft 41. A pin I26 is fastened to the underside of mutilated gear =46 which is fastened to main drive gear 40, and on this pin is rotatably mounted a pawl I27 which is biased counterclockwise by a spring I28 so that the pawl is always held against the periphery of cam I25, thus to be in a position to be engaged by a shoulder I25a on the cam. It may be seen that when the cam is rotated by the gear train described, its direction of rotation is clockwise, as viewed in Figur 4 thus the cam shoulder pushes against pawl I21, and accordingly rotates drive gear 40 clockwise. The ratio of the gear train described is such that travel of handle '25 through an arc of less than 360 completes one revolution of main drive gear 40. This rotation of the drive gear effects operation of the film feeding mechanism to feed the proper amount of unexposed film into exposure position in the focal plane, as described hereinabove.

As handle 25 is rocked clockwise, which is the first direction of movement thereof to reset the camera, ratchet H9 also rotates clockwise, forcing the end I29 of a locking arm I30 out of a notch I3I formed in the ratchet, arm I30 being pivotally mounted on a pin I30a carried by plate 24. As the ratchet continues to rotate, the locking arm end I29 is in the full line position shown in Figure 5, wherein it over-rides the ratchet teeth until the last tooth I3I of the ratchet engages the end of the locking arm, forcing it to an extreme counterclockwise position (the dotdash position in Figure 5), at which point catch I I! on arm I I3 engages with a lip I32 on locking arm I30. With the locking arm in this extreme position, the pawl or stop end I29 (Figure 4) of the locking arm is free of the teeth on ratchet H9 so that the ratchet may be moved counterclockwise upon similar movement of handle 25. However, as this return movement of the handle and ratchet nears its end, a pin I33 on ratchet H9 engages arm H3 and rocks it clockwise, forcing its catch H'I out of engagement with lip I32 on locking arm I30. It should be noted at this point that a spring I34, having its opposite ends attached respectively to arm H3 and locking arm I30 tends to maintain the two arms in engagement.

Thus when catch H1 and lip I32 become disengaged, spring I34 rocks locking arm I30 clockwise, causing the reentry of pawl I29 into notch I3I of the ratchet. It will be recalled that prior to this movement of locking arm I30, catch H2 had been rocked clockwise to engage under arm I05 (see dot-dash position in Figure 5) thus holding this arm in its counterclockwise position. Upon the final clockwise movement of locking arm I30, as described, however, its lip I32 (Figure 4) engages under pin H4 on the end H2a of catch H2 and rocks the catch counterclockwise, thus to disengage its lower hooked end from notch I05a of arm I05, which permits spring I I0 to rock arm I05 clockwise, and accordingly reengage pawl I08 with shutter pinion I 09, thus locking the shutter in its set position.

The return or counterclockwise movement of ratchet H9 has an additional purpose. Pivotally mounted, as by a pin I35 on ratchet H9 is a lever I36, the end I36a of which is forced against trigger plate 28 by spring I20. Prior to the engagement of this end of lever I36 with plate 28, however, the other end I361) of the lever ngages the trigger plate shortly after the beginning of the return movement of ratchet I I9, which causes clockwise movement of trigger plate 28 and accordingly a withdrawal of finger 29 from under pin I03, thus to permit return clockwise movement of arm I 05 by spring H0 when catch H2 releases the arm. Thus it follows that the trip finger 29, and accordingly trigger 25, is automatically returned to its Figure 2 position during the return or counterclockwise movement of handle 25.

Aspointed out above, stop or lock arm I30 is moved to an extreme counterclockwise position (referring to Figure 4) by the last ratchet tooth I3I. Another function is accomplished by this extreme movement. As pointed out before, a relatively few degrees of movement of handle 25 and ratchet member H8 cause one complete revolution of drive gear 40. Under circumstances where the handle is moved very rapidly, substantial momentum might well be imparted to the drive gear, causing it to overrun. To preclude such overrunning, the mutilated gear 46, which is attached to main gear 40, carries a block 4011 so positioned as to engage an edge I 3012 of locking arm I30 when the locking arm is in its extreme counterclockwise position (see Figure 5). As noted above, in the description of the electrical operation of the camera, operation of the main drive gear 40 effects rewinding-of the camera shutter. Thus it follows that the camera may be itripped and reset just 'as rapidly as handle various levers-arms, stops and ratchets shown,

in Figure are so arranged and their operations are so timed relative to the operation of mutilated gear 46 as to constitute-an effective interlock which prevents tripping'of the shutter during the film rewind portion of the cycle, and which prevents the feeding of anything lessthan a complete complement of unexposed films I As noted above in the descriptionof the electrical' operation of the camera, the gear train shown in Figure 2, which connects motor-driven pinion 39- with main drive gear 40, includes a pair of ratchet-conne'cted gears 45. These gears are of'a conventional 'nature,'i. e. constitute an over-drive or overrunning clutch which forms a driving connection between the motor and gear 40 during electrical operation of the camera, but which precludes operation of the gear train through rotation of gear 40 when this gear is rotated during manual operation of the camera, as described. Accordingly it follows that gear 40 is common to both the electrical and manual drives, which not-only facilitates operation of the film winding mechanismbut also simplifies the mechanism by which the shutter is reset.

Thus we have provided an aerial camera which fulfills the objects hereinbefore set forth in a thoroughly practical and efficient manner.

As many possible embodiments may be made of the above invention and as many changes might be made in the embodiment above set forth, it is to be understood that all matter hereinbefore set forth or shown in the accompanying drawing is to be interpreted as illustrative and not in a limiting sense.

We claim:'

1. In a manually operable camera, in combination, a shutter, a shutter trip operable to trip said shutter, film winding mechanism, gear means including a mutilated gear adapted to be connected with said shutter and a drive gear connected with said film winding mechanism and operable to operate said'shutter and said mechanism, a rotatable shaft on which said gears are freely mounted, a handle disposed exteriorly of said, camera and connected to said shaft for rotating said shaft backwards and forwards, means connecting said shaft to said gears for operating said gear means to wind said shutter and operate said film winding mechanism when said handle is rocked in one direction, and means operated by said handle upon rocking thereof in the opposite direction for resetting said shutter trip.

2. In a manually operable camera, in combination, a shutter, a shutter trip operable to trip said shutter, film winding mechanism, gear means including a mutilated gear adapted to be connected with said shutter and a drive gear connected with said film winding mechanism and operable to operate said shutter and said mechanism, a rotatable shaft on which said gears are freely mounted, ahandle disposed exteriorly of said camera and connected to said shaft for rotating said shaft backwards and forwards, means releasably connecting said shaft to said gear means for Winding said shutter and operating said film winding mechanism when said handle is rocked in one direction, means operated by said handle upon rocking thereof in the opposite direction for resetting said shutter .trip, and

8; means to preclude overrunning of said drive gear and accordingly said film winding mechanism during op'eration thereof by said handle.

3. In a manually operable camera, in combination, 'a casing, ashaft .rotatably mounted in said casing, a handledisposed exteriorly of said casing and connected .to said shaft for rotating it forth and back, a gearattached to said shaft to rotate therewith,- a second gear freely mounted on said shaft, .agear train forming a driving connection between said first and second gears so that saidsecond gear is-rotated in one direction or the other in accordance with the rotation of said first gear, a third gear freely mounted on said shaft, means forming a separable driving connection between said second and third gears whereby said second geardrivessaid third gear in one direction only, film winding mechanism connected to said third gear so asto be driven there-- by unidirectionally on1y-,said. third gear having a stop' mounted thereon, and means operatively associated withsaid first gear and actuated there-' 4. In a manually operable camera, in combi-' nation, a casing, a shaft rotatably mountedin' said casing, a handle disposed exteriorly of said casing and connected to said shaft for rotating it forth and back, a gear attached to said shaft to rotate therewith, a second gear freely mounted on said shaft, a gear train forming a driving connection between said first and second gears so that said second gear is rotated in one direction or the other in accordance with the rotation of said first gear, a third gear freely mounted on said shaft, means forming a separable driving connection between said second and third gears whereby said second gear drives said third gear in one direction only, shutter reset mechanism connected to and operated by said third ear but unidirectionally only, a ratchet secured to said shaft to rotate therewith, shutter trip lockout mechanism in said casing, and an element on said ratchet for resetting said lockout mechanism upon rotation of said shaft and accordingly said ratchet in a direction opposite to thefilm winding direction of rotation.

' IRVING W. DOYLE. CARL V. JOHNSON.

REFERENCES CITED The following references are of record in the file of this patenti UNITED STATES PATENTS Number Name Date 1,536,335 Folmer May 5, 1925 1,645,923 Ohlau i Oct. 18, 1927 1,764,066 Chamberlin I June 17, 1930- 1,779,424 Fairchild Oct. 28, 1930 1,817,182 Fairchild Aug. 9, 1931- 1,821,492 Breichle Sept. 1, 1931 1,909,597 Thompson May 16, 1933 2,169,001 '.Mihalyi. Aug. 8, 1939 2,180,064 Nuchterlein Nov. 14,, 1939 2,283,788 Briechleet a1. I May 19, 1942 2,358,777 Rappleyea Sept. 26,1944 2,362,813 Gorey et al Nov. 14, 1944 v FOREIGN PATENTS Number; C untry Date Great Britain of 1900 

